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* screen tests: support bold, reverse, colorKartik K. Agaram2022-03-082-6/+198
| | | | | We can't test combinations of these yet because Lua 5.1 doesn't support bitwise operators. Reason #1 to upgrade.
* protect framework files from appsKartik K. Agaram2022-03-083-12/+35
| | | | | | | | There's a separate open question here of where Teliva should store files like teliva_editor_state and teliva_editor_buffer. One school of thought is that apps should never be dropping crud into people's directories. On the other hand, I'm kinda encouraging people so far to just run apps from Teliva's directory. Perhaps that makes it ok?
* just always temp files to be createdKartik K. Agaram2022-03-076-10/+26
| | | | | Implication: os.rename now needs to be sandboxed. Hopefully it's tractable to treat it as conceptually identical to opening two files.
* stop loading libraries after app codeKartik K. Agaram2022-03-071-7/+2
| | | | This whole approach of disallowing overriding is suspect.
* purge all support for per-function permissionsKartik K. Agaram2022-03-075-882/+9
| | | | | | | | | We're now back to the problem of how to transparently allow Teliva to create temporary filenames without every app having to explicitly allow them. I think I may need to define start_writing in C, so that it can use a non-sandboxed version of io.open.
* yup, this whole caller-based approach is bustedKartik K. Agaram2022-03-071-0/+415
| | | | | How can we scope anything to a subset of an app that is user-visible in such a dynamic language as Lua?! X(
* hokey primitive to create temporary fileKartik K. Agaram2022-03-072-1/+26
| | | | | | | | | | | | | | The trouble with os.tmpname() is that it always creates in /tmp. If /tmp is in a different volume from our real filename, os.rename() will fail. This new primitive doesn't support primitive paths yet. I'm also again nervous about the security implications of my whole approach. What if we create an inner function called start_writing? Would we be able to do anything inside it? I'm starting to suspect this whole approach of going by caller name is broken. An app could also create inner functions called 'main'..
* slightly firm up phases in pmainKartik K. Agaram2022-03-071-2/+9
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* hide test app a bitKartik K. Agaram2022-03-072-0/+2
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* fix the security vulnerabilityKartik K. Agaram2022-03-072-10/+8
| | | | | | | | | We now have a notion of libraries that we load after app code, to prevent them from getting overridden. Should I just load all libraries after the app? There might be value in allowing apps to override library functions. Disallowing that too much may be going against Lua's dynamic nature.
* call app's main() from within Lua pmainKartik K. Agaram2022-03-073-7/+7
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* pin down a security vulnerabilityKartik K. Agaram2022-03-071-0/+418
| | | | | | | We aren't actually secure as the previous commit said. The hole here is that you can't override start_writing by typing in 'start_writing' into the big picture. However you _can_ override it by typing in _anything else_.
* zet.tlv: switch file writes to new APIKartik K. Agaram2022-03-074-0/+64
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | The interface for apps looks much nicer now, see 'main' in zet.tlv. However there are some open issues: - It can still be confusing to the computer owner that an app tries to write to some temporary file that isn't mentioned anywhere. - File renames can fail if /tmp is on a different volume. - What happens if an app overrides start_writing()? The computer owner may think they've audited the caller of start_writing and give it blanket file permissions. Teliva tunnels through start_writing when computing the caller. If the app can control what start_writing does, the app could be performing arbitrary malicious file operations. Right now things actually seem perfectly secure. Overriding start_writing has no effect. Our approach for loading .tlv files (in reverse chronological order, preventing older versions from overriding newer ones) has the accidentally _great_ property that Teliva apps can never override system definitions. So we have a new reason to put standard libraries in a .lua file: if we need to prevent apps from overriding it. This feels like something that needs an automated test, both to make sure I'm running the right experiment and to ensure I don't accidentally cause a regression in the future. I can totally imagine a future rewrite that tried a different approach than reverse-chronological.
* extract a common function callKartik K. Agaram2022-03-073-4/+5
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* zet.tlv: switch file reads to new APIKartik K. Agaram2022-03-072-2/+40
| | | | In the process I found a couple of bugs in parsing JSON string escapes.
* decode json from channelsKartik K. Agaram2022-03-062-0/+328
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* use method syntax where possibleKartik K. Agaram2022-03-069-80/+80
| | | | | | Perhaps this is a bad idea. It feels arbitrary, what methods Lua happens to include in string and table objects without having to go through the respective modules.
* reading from file a character at a timeKartik K. Agaram2022-03-061-0/+20
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* local functions broke start_reading/start_writingKartik K. Agaram2022-03-061-2/+2
| | | | | Looks like Lua's local functions lose access to outer scopes (upvalues) or something like that..
* move start_reading/start_writing out of templateKartik K. Agaram2022-03-065-144/+47
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | When should code go in the template used by new apps vs the .lua files distributed with Teliva? - from a privilege perspective there's no difference - from a compatibility perspective stuff in .tlv will not get upgraded with Teliva. - for me the maintainer, functions in .lua files are easier to upgrade in a single place. - for the reader of an app, functions in .lua files will not show up to be edited. They can still be overloaded, but the current version isn't as discoverable. Putting something in the app is a slight nudge to readers that they're encouraged to mess with it. - Stuff in .lua files can use local functions and so have more internal complexity. Apps can also hide details within functions, but that'll make them more likely to run into limitations with Teliva's editing environment. I'm not yet sure how to reason about the second point in practice. - Stuff in .tlv files I don't have to worry about compatibility guarantees for. - Stuff in .lua files I _do_ have to worry about compatibility guarantees for. Perhaps this means I'm doing things exactly wrong in this commit? Functions like map/reduce/filter/append seem more timeless, whereas I'm still just feeling my way around with start_reading and start_writing. We'll see. For now I'm ruled by the fourth point. Messing with tasks and the scheduler is much more advanced than anything else in template.tlv; it seems to make sense to add some friction to modifying them. Bottomline: Complex sub-systems go in .lua files. Simple, self-contained definitions go into apps. Both are probably equally burdensome now from a compatibility perspective.
* extract a helperKartik K. Agaram2022-03-061-1/+5
| | | | | | I'm starting to get quite indisciplined about where I introduce global bindings. Seems reasonable since any modules in Teliva will come from within the framework.
* use the new file API in most placesKartik K. Agaram2022-03-061-4/+6
| | | | | Really everywhere except zet.tlv. toot-toot is intended to emit throwaway files anyway.
* reconcile all apps with template.tlvKartik K. Agaram2022-03-068-436/+710
| | | | | | They may take more or less from it (sieve.tlv in particular takes nothing since call depth doesn't help at all there), but what they take is in the right order so that you can compare across apps.
* starting to convert all file reads to the new APIKartik K. Agaram2022-03-061-1/+1
| | | | | For starters, this detail was puzzling when I returned to the Game of Life app.
* a simple hack to make caller apparentKartik K. Agaram2022-03-052-6/+8
| | | | | | | | | | | | | | | | | | | | Teliva isn't yet smart enough to know the caller of an indirect function where the function being called goes through a local variable. I'd expected fixing this to be a long death march. However, there's a shockingly easy fix: just make every indirect call go through an additional direct function call. My policy for zet.tlv was that function 'main' could open any file. This stopped working since I introduced spawn_main. But with this commit it's working again. I can also drop all my special-casing of 'main' since it's now a regular Lua call. We still can't rely on the caller of an indirect call. That affects start_reading and start_writing, which really need to be part of the framework.
* new API for file operationsKartik K. Agaram2022-03-054-40/+83
| | | | | | | | | | | | | | | | | | | | | File operations now always return a channel (or nil on error or permission denied). When start_reading() from a filename, you can repeatedly :recv() from the channel it returns. When :recv() returns nil, you're at the end of the file. Stop. When you start_writing() to a filename, you can repeatedly :send() to the channel it returns. When you're done writing, :close() the channel. Writes to the file won't be externally visible until you do. To make this work I'm now always starting up the scheduler, so I need to fix sieve.tlv. Transparently running the scheduler is an abstraction, and whenever I create an abstraction I always worry about how it might fail. There's a hopefully-clear error when you read past end of a file.
* anagrams.tlv: now fully responsiveKartik K. Agaram2022-03-052-19/+135
| | | | | | | | | If we press a key the computation now restarts instantly. There's no fiction of multi-threading in Teliva. If the application doesn't work right, it beach-balls. If it doesn't beach-ball under normal circumstances you're more certain it'll never beach-ball. It's more work up-front, but there's less variability in outcomes.
* some dead codeKartik K. Agaram2022-03-051-59/+0
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* reliably exit on confirmationKartik K. Agaram2022-03-051-1/+5
| | | | | | | Until now you had to press ctrl-x twice in rapid succession to exit if an app turned on non-blocking keyboard with nodelay(true). This became particularly noticeable after the previous change to anagrams.tlv, which could no longer exit.
* fixup! no further confirmation once editing commencesKartik K. Agaram2022-03-051-0/+1
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* anagrams.tlv: slightly more responsiveKartik K. Agaram2022-03-052-1/+31
| | | | | | | Now we cancel screen-painting if any key is pressed. However it looks like just computing the list of anagrams can take a long time.
* include caller in sandboxing messagesKartik K. Agaram2022-03-041-1/+1
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* simplify permissions model for file operationsKartik K. Agaram2022-03-032-5/+5
| | | | | We don't care to distinguish modes like "rw" or "a+". An app is permitted to perform either just reads or both reads and writes.
* clearer copy for confirmation dialogKartik K. Agaram2022-03-031-1/+1
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* basic support for testing writes to screenKartik K. Agaram2022-03-031-0/+73
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* more unobtrusive skip messageKartik K. Agaram2022-03-031-1/+1
| | | | In particular, the periods looked like passing tests.
* no further confirmation once editing commencesKartik K. Agaram2022-03-031-1/+3
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* ask for confirmation on _any_ teliva shortcutKartik K. Agaram2022-03-031-22/+33
| | | | | This feels more intrusive. Let's see how we like it. Will I start having ctrl-x ctrl-x in my muscle memory?
* experiment: drop -WshadowKartik K. Agaram2022-03-033-5/+5
| | | | | I'm totally fine with lexical scope in other languages. Why does it feel like such a big deal in C?
* fake keyboard constructorKartik K. Agaram2022-03-021-0/+34
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* distinguish between window global and argKartik K. Agaram2022-03-0212-110/+110
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* always ask for confirmation on exitKartik K. Agaram2022-03-011-2/+18
| | | | | Let's see if we can live with this rather than some way to let apps indicate if they want confirmation or not..
* zet.tlv: hotkeys are not alternativesKartik K. Agaram2022-02-271-18/+18
| | | | | In any case, I want the convention to be '|' for alternation. '/' is more likely to be a real hotkey.
* zet.tlv: streamline historyKartik K. Agaram2022-02-271-3029/+0
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* starting to make Teliva apps more testableKartik K. Agaram2022-02-2712-129/+129
| | | | | | | | | | Tasteful apps should only perform side-effects through 'window' arguments rather than the 'curses' module directly. It's ok however to read constants like curses.A_NORMAL or curses.stdscr(). There are some limitations, unfortunately. Ncurses wasn't designed with testability in mind. For example, there's no way to curs_set or assume_default_colors without the 'curses' module. Oh well.
* always run unit tests for channels and tasksKartik K. Agaram2022-02-261-216/+210
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* import https://github.com/majek/lua-channelsKartik K. Agaram2022-02-264-2/+1044
| | | | Also a little test program to demo channels in action.
* duplicate keypress on failing testKartik K. Agaram2022-02-261-1/+0
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* readme tweakKartik K. Agaram2022-02-261-6/+7
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* a little program for kids: anagrams of namesKartik K. Agaram2022-02-212-2/+398
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